An electrical system includes a contactor having a pair of contacts and a coil configured to electrically close and open the contacts. The electrical system also includes a high voltage (“HV”) circuit including a power supply electrically connected to at least one of the contacts of the contactor. The electrical system further includes a low voltage (“LV”) circuit electrically connected to the coil and configured to selectively energize the coil of the contactor. A disconnect mechanism is coupled with the LV electrical circuit and operable to electrically open the LV electrical circuit to actuate electrical opening of the contacts of the contactor.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An electrical system comprising: a contactor having a pair of contacts and a coil configured to electrically close and open the contacts; a high voltage (“HV”) electrical circuit including a power supply electrically connected to at least one of the contacts of the contactor; a low voltage (“LV”) electrical circuit electrically connected to the coil and configured to selectively energize the coil of the contactor; a disconnect mechanism coupled with the LV electrical circuit and operable to electrically open the LV electrical circuit to actuate electrical opening of the contacts of the contactor; wherein the disconnect mechanism includes a receptacle and a plug that is completely removable from the receptacle; wherein the plug is formed in part of a non-conductive material, and the plug includes a conductive path to complete the LV electric circuit when the plug is disposed in the receptacle; and at least one HV access point is exposed in the receptacle when the plug is removed from the receptacle to allow electrical measurement of the power supply of the HV electrical circuit.
2. The electrical system as set forth in claim 1 wherein the disconnect mechanism is coupled with the HV electrical circuit for electrically opening the HV electrical circuit.
3. The electrical system as set forth in claim 2 wherein the LV electrical circuit is opened prior to the HV electrical circuit being opened.
4. The electrical system as set forth in claim 2 : wherein the power supply includes a positive pole and a negative pole; wherein the contactor comprises a positive contactor having a pair of contacts and a coil configured to electrically close and open the contacts and a negative contactor having a pair of contacts and a coil configured to electrically close and open the contacts; wherein the disconnect mechanism electrically connects the positive pole of the power supply and one of the contacts of the positive contactor and is operable to electrically disconnect the positive pole of the power supply from one of the contacts of the positive contactor; and wherein the disconnect mechanism electrically connects the negative pole of the power supply and one of the contacts of the negative contactor and is operable to electrically disconnect the negative pole of the power supply from one of the contacts of the negative contactor.
5. The electrical system as set forth in claim 2 wherein the power supply is further defined as a battery having a plurality of cells.
6. The electrical system as set forth in claim 5 wherein the disconnect mechanism is disposed in series between two of the cells.
7. The electrical system as set forth in claim 1 wherein the disconnect mechanism further includes a fuse disposed in series with the HV electrical circuit.
8. The electrical system as set forth in claim 1 wherein the at least one HV access point is electrically connected to the power supply.
9. The electrical system as set forth in claim 1 further comprising a sense resistor disposed in series with the LV electrical circuit to sense the current flowing through the coil of the contactor for determining a fault in the contactor.
10. The electrical system as set forth in claim 1 wherein the LV electrical circuit further comprises at least one transistor electrically connected to the coil for selectively energizing the coil.
11. The electrical system as set forth in claim 1 further comprising an analog-to-digital converter (“ADC”) electrically connected to the LV electrical circuit for sensing voltage and/or current of the LV electrical circuit.
12. The electrical system as set forth in claim 1 : wherein the power supply includes a positive pole and a negative pole; wherein the contactor comprises a positive contactor electrically connected to the positive pole and having a pair of contacts and a coil configured to electrically close and open the contacts and a negative contactor electrically connected to the negative pole and having a pair of contacts and a coil configured to electrically close and open the contacts; wherein the disconnect mechanism is coupled with the LV electrical circuit and operable to electrically open the LV electrical circuit to actuate electrical opening of the contacts of the positive contactor and the negative contactor.
13. The electrical system as set forth in claim 12 further comprising a first sense resistor disposed in series with the positive contactor to sense the current flowing through the coil of the positive contactor for determining a fault in the positive contactor and a second sense resistor disposed in series with the negative contactor to sense the current flowing through the coil of the negative contactor for determining a fault in the negative contactor.
14. The electrical system as set forth in claim 1 wherein the disconnect mechanism is characterized by the absence of a resistor that detects whether the plug is removed from the receptacle.
15. A vehicle comprising: a contactor having a pair of contacts and a coil configured to electrically close and open the contacts; a high voltage (“HV”) electrical circuit including a power supply electrically connected to at least one of the contacts of the contactor; a load electrically connected to the HV electrical circuit for receiving electrical power from the power supply and driving at least one wheel; a low voltage (“LV”) electrical circuit electrically connected to the coil and configured to selectively energize the coil of the contactor; a disconnect mechanism coupled with the LV electrical circuit and operable to electrically open the LV electrical circuit to actuate electrical opening of the contacts of the contactor; wherein the disconnect mechanism includes a receptacle and a plug that is selectively removable from the receptacle; wherein the plug is formed in part of a non-conductive material, and the plug includes a conductive path to complete the LV electric circuit when the plug is disposed in the receptacle; and at least one HV access point is exposed in the receptacle when the plug is removed from the receptacle to allow electrical measurement of the power supply of the HV electrical circuit.
16. The vehicle as set forth in claim 15 wherein the disconnect mechanism is coupled with the HV electrical circuit for electrically opening the HV electrical circuit.
17. The vehicle as set forth in claim 16 wherein the LV electrical circuit is opened prior to the HV electrical circuit being opened which causes the load to disconnect from the power supply of the HV electrical circuit prior to opening the HV electrical circuit via the disconnect mechanism.
18. The vehicle as set forth in claim 15 wherein the disconnect mechanism is characterized by the absence of a resistor that detects whether the plug is removed from the receptacle.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
June 14, 2016
January 15, 2019
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